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Comments on Professor S. E. Hollingworth’s Notes

Published online by Cambridge University Press:  30 January 2017

D. L. Linton*
Affiliation:
Department of Geography, University of Sheffield
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Abstract

Type
Article Commentary
Copyright
Copyright © International Glaciological Society 1952

Professor Hollingworth entirely expresses my own views when he states that melt water channels “mark the ice margin at their time of operation.” The melt water channels of north-east Yorkshire that drained into and out of Lake Pickering were in operation when the ice of the Vale of York stood along the Escrick and York moraines in front of which the outflow channels (now marked by the courses of the Foss Beck and the Derwent) are situated. The Escrick moraine is the extreme limit hereabouts of the Newer Drift ice, and may be taken to represent the “maximum encroachment” of the Newer Drift glaciation. Its constitution was taken by Kendall and Wroot as implying deposition in and beneath water. Moreover within the hill country the terminal moraine at Nelly Hay Force marking the furthest penetration of ice in Wheeldale is clearly contemporary with the initiation of the great Newtondale overflow—and was still the ice margin when the intake of Newtondale had been lowered at least 50 feet, and the Moss Slack was cut across the end of Two Howes Rigg. In north-east Yorkshire therefore, the evidence suggests an abundance of (summer) melt water at the time of “maximum encroachment.”

Professor Hollingworth further remarks that it is “not unreasonable” to consider “a snow-line in the CIeveland area at the time of the Newer Drift glaciation of, say, 1000 to 1200 ft. O.D.”

Regarding this assumption three points may be made:

  • (i) Evidence of ground-ice wedges or of permanently frozen ground is not evidence of a low snow line, even during the period of their formation, as descriptions of central Alaskan conditions have long made clear. It is perfectly consistent both with a high snow line (with low precipitation) and with abundant summer movement of thaw water.

  • (ii) In any case since Lakes Eskdale and Pickering and the associated channels are below the assumed snow Iine the assumption does not carry the corollary that the channels would not have functioned each summer. The snow line is surely by definition the level below which summer ablation exceeds winter precipitation.

  • (iii) The assumption of a low snow line in the Cleveland Hills does not permit us to assume that the margin of the extraneous ice would mount higher against the hills since the position of that margin depends principally on precipitation conditions in areas of ice dispersal. It thus does not aid our understanding of the erratics mentioned by G. W. Dimbleby.

Finally there is mention of the possibility that the “craggy outcrops” of Charnwood are tors—i.e. residuals left underground by deep chemical weathering in a pre-glacial (or inter-glacial) cycle and spared by the ice, since they were exhumed as the result of a falling base-level. The hypothesis deserves consideration but as I have no recent acquaintance with Charnwood I am not able to answer Professor Hollingworth’s question. But it would give me much pleasure to join him in seeking an answer on the ground.